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Room-Temperature Strong Coupling of Few-Exciton in a Monolayer WS<sub>2</sub> with Plasmon and Dispersion Deviation

Jie Zhong, Jun-Yu Li, Jin Liu, Yifan Xiang, He Feng, Renming Liu, Wei Li, Xuehua Wang

2024Nano Letters20 citationsDOI

Abstract

Engineering room-temperature strong coupling of few-exciton in transition-metal dichalcogenides (TMDCs) with plasmons promises to construct compact and high-performance quantum optical devices. But it remains unimplemented due to their in-plane excitons. Here, we demonstrate the strong coupling of few-exciton within 10 in monolayer WS 2 with the plasmonic mode with a large tangential component of the electric field tightly trapped around the sharp corners of an Au@Ag nanocuboid, the fewest number of excitons observed in the TMDC family so far. Furthermore, we for the first time report a significant deviation with a relative difference of up to 100.6% between the spectrum and eigenlevel splitting dispersions, which increases with decreasing coupling strength. It is also shown that the coupling strength obtained by the conventional concept of both being equal to the measured spectrum splitting is markedly overestimated. Our work enriches the understanding of strong light–matter interactions at room temperature.

Topics & Concepts

ExcitonMonolayerPlasmonCoupling (piping)Condensed matter physicsMaterials scienceElectric fieldDispersion (optics)Transition metalMolecular physicsOptoelectronicsPhysicsChemistryNanotechnologyOpticsQuantum mechanicsMetallurgyBiochemistryCatalysis2D Materials and ApplicationsStrong Light-Matter InteractionsPerovskite Materials and Applications
Room-Temperature Strong Coupling of Few-Exciton in a Monolayer WS<sub>2</sub> with Plasmon and Dispersion Deviation | Litcius